Technology & Specifications (reference)

The GeForce GTX 780 is, as stated, based on Titan which has GK110 Kepler GPU architecture. The chip is huge in size, it is still based on the 28nm fabrication node. But when I say huge, I mean it as it has 7.1 Billion transistors tucked away in a 45 mm × 45 mm 2397-pin S-FCBGA chip. That's a 561 mm² die size. The GPU on that 10.5 inches long dual-slot GeForce GTX 780 graphics card boasts an impressive 2304 CUDA (shader) cores and has 7100 Million transistors.

The product is obviously PCI-Express 3.0 ready and has a TDP of around 250W with a typical idle power draw of 15 Watts. That TDP is a maximum overall, and on average your GPU will not consume that amount of power. But let me first show you the GK110 GPU die:

The GK110 is based off the Kepler architecture, as such you will get the fairly standard pre-modelled SMX clusters of 192 shader processors per cluster. Out of the 15 available, there are 12 active SMX clusters for the GTX 780, times 192 shader processors which thus offers you 2496 shader processors. If it would have had the full 15 SMX clusters enabled, yeah that would have been 2880 shader processors. There is a distinct difference with extra double precision units, but we'll talk about that on the next page though. But how does 4.3 Teraflops of peak compute performance sounds?

But to make a bold comparison, the GeForce GTX 680 which many of you guys have have 1536 of these shader processors. We'll get more in-depth into the architecture on the next page though. As far as the memory specs of the GK110 Kepler GPU are concerned, the boards will feature a 384-bit memory bus connected to a 3 GB of GDDR5 video buffer memory, aka VRAM aka your framebuffer aka graphics memory for the GTX 780.

On the memory controller side of things you'll see that the reference memory clock (effective data-rate) is now set at 6 GHz / Gbps. This boils down to an exotic memory bandwidth of no less than 288 GB/s on that 384-bit memory bus. Much like the GTX 680, the GPU core versus the shader processor domain is are both clocked at 1:1, meaning both the core and shader domain clock in at a 863 MHz reference base clock frequency. One clock to rule them all (well internally there are dozens of different other clocks really, but let's keep it simple, shall we?). With this release, NVIDIA now has the final series Kepler cards on their way. We expect at first launch wave to see maybe 10 maybe 20K cards available, so you'd better be fast if you want one. Obviously, later on there will be more batches available depending on demand. This is not going to be a "limited" or extremely hard to get product series.

The new graphics adapters are of course DirectX 11.1 ready. With Windows 8, 7 and Vista also being DX11.1 ready with game compatibility to take advantage of DirectCompute, multi-threading, hardware tessellation and the latest shader 5.0 extensions. For your reference here's a quick overview of some past generation high-end GeForce cards opposed to the new Kepler based GeForce GTX 680.

Single GPU based cards

GeForce GTX480

GeForce GTX580

GeForce GTX680

GeForce GTX780

EVGA 780SC ACX

GeForce GTXTitan

Stream (Shader) Processors

480

512

1536

2304

2304

2688

Core Clock (MHz)

700

772

1006

863

967

836

Shader Clock (MHz)

1400

1544

-

-

-

-

Boost Clock

-

-

1058

900

1020

876

Memory Clock (effective MHz)

3700

4000

6000

6000

6000

6000

Memory amount

1536

1536

2048

3072

3072

6144

Memory Interface

384-bit

384-bit

256-bit

384-bit

384-bit

384-bit

Memory Type

gDDR5

gDDR5

gDDR5

gDDR5

gDDR5

gDDR5

HDCP

Yes

Yes

Yes

Yes

Yes

Yes

Two Dual link DVI

Yes

Yes

Yes

Yes

Yes

Yes

HDMI

Yes

Yes

Yes

Yes

Yes

Yes

For Kepler overall, Nvidia kept their memory controllers GDDR5 compatible. Memory wise, Nvidia has nice large memory volumes available due to their architecture, we pass 2 GB as standard these days for most of Nvidia's series 600 graphics cards. The 3 GB on the GTX 780 however is plenty. The hardware engineers of Nvidia reworked the memory subs system quite a bit, enabling much higher memory clock frequency speeds compared to previous generation GeForce GPUs. The result is this memory speeds up-to 6 Gbps. Each memory partition utilizes one memory controller on the respective GPU, Titan has a total board memory of 6 GB and that's 24 pieces of 64M × 16 GDDR5, SDRAM whilst GTX 780 has a total board memory of 3 GB and that's 12 pieces of 64M × 16 GDDR5, SDRAM

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